Faculty of Engineering & Technology, SRM University, Kattankulathur - 603203 School of Mechanical Engineering Department of Mechanical Engineering Course plan Course code : ME1002 Date : 19 th December 2013 Course title : ENGINEERING MECHANICS Semester :2 Academic year / : 2013-'14/ Even Semester :(December 2013-April 2014) Section details: Sec tion Room No. Details of Faculty member Name Room No. Intercom No. e-mail id Student A UB 601 Mr. R.Santha nakrishnan MEA201 1829 (@ktr.srmuniv.ac.in) jeyakarthik.p contact time B UB602 Mr.M.Sermaraj MEB305 1803 sermaraj.m C UB603 Mr.C.Subramanian MEH101/A 1810 subramanian.c D E F G H I UB604 UB605 UB606 UB607 UB608 UB609 Mr. P.V.Jeyakarthikeyan Mr.K.Ramesh Mr.Vamsi Krishna Dommeti Mr.Shubrajit Bhaumik Mr.Narasima rao Mr.S.Kolli Balasivarama MEH101/D MEH10l/C MEB305/A MEM12/D H312 MEH109 1818 1818 1803 1827 - - santhanakrishnan.r vamsikrishna.d ramesh.k shubrajit.b narasimharao.p balasivarama.s E 0. 0 ('1') rl , LI) rl ('oJ rl >: ro "0 V'> <lJ C "0 Q) 3: J UB610 Mr.N.Arun MEH109 - arun.n K UB611 Mr.K.Jagadeesan MEB404 1803 jegadeesan.k L UB612 Mr.G.Balasiva Krishna MEH109 - balasivakrishna.g Direct assessment details: Name of assessment Marks Topics(Tentiative) Tentative date Duration Cycl e test - I 10 Statics of particles and analysis of trusses and friction 08-02-2014 100 minutes Surprise test 05 Properties of surfaces and volume. Before March 2014 10 -15 min Cycle test - II 10 Properties of surfaces and volume and dynamics of particles 10-03-2014 100 minutes Model examination 20 Entire Syllabus 21-04-2014 3 hours End semester examination 50 Entire Syllabus 12-05-2014 3 hours Attendance 05 N/A
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Faculty of Engineering & Technology, SRM University, Kattankulathur - 603203 School of Mechanical Engineering
Department of Mechanical Engineering Course plan
Course code : ME1002 Date : 19th December 2013
Course title : ENGINEERING MECHANICS
Semester :2
Academic year / : 2013-'14/ Even
Semester :(December 2013-April 2014)
Section details: Sec tion
Room No.
Details of Faculty member
Name Room No. Intercom No. e-mail id Student
A UB 601 Mr. R.Santha nakrishnan MEA201 1829
(@ktr.srmuniv.ac.in)
jeyakarthik.p
contact time
B UB602 Mr.M.Sermaraj MEB305 1803 sermaraj.m
C UB603 Mr.C.Subramanian MEH101/A 1810 subramanian.c
D
E
F
G
H
I
UB604
UB605
UB606
UB607
UB608
UB609
Mr. P.V.Jeyakarthikeyan
Mr.K.Ramesh
Mr.Vamsi Krishna Dommeti
Mr.Shubrajit Bhaumik
Mr.Narasima rao
Mr.S.Kolli Balasivarama
MEH101/D
MEH10l/C
MEB305/A
MEM12/D
H312
MEH109
1818
1818
1803
1827
-
-
santhanakrishnan.r
vamsikrishna.d
ramesh.k
shubrajit.b
narasimharao.p
balasivarama.s
E 0.
0 ('1')
rl, LI) rl ('oJ rl
>: ro "0 V'> <lJ C "0 Q)
3:
J UB610 Mr.N.Arun MEH109 - arun.n
K UB611 Mr.K.Jagadeesan MEB404 1803 jegadeesan.k
L UB612 Mr.G.Balasiva Krishna MEH109 - balasivakrishna.g
Direct assessment details:
Name of assessment Marks Topics(Tentiative) Tentative date Duration
Cycl e test - I 10
Statics of particles and analysis of trusses and friction
08-02-2014 100 minutes
Surprise test 05 Properties of surfaces and volume. Before March 2014 10 -15 min
Cycle test - II 10
Properties of surfaces and volume and dynamics of particles
10-03-2014 100 minutes
Model examination 20 Entire Syllabus 21-04-2014 3 hours
End semester examination
50 Entire Syllabus
12-05-2014 3 hours
Attendance 05 N/A
CT PL
42 03MElOO2 ENGINEERING MECHANICS
Prerequisite
Nil
Student outcomes Program Educational Objectives
1. Apply / improve their
knowledge in
basic sciences for
excelling in
various
2. Enhance
professional
practice to
meet the global
standards with
ethical and
3. Solve
industrial,
social, and
environmental
problems with
modern
4. Develop skills to work
in teams, think
intellectually and pursue
life-long learning.
disciplines of
Mechanical
Engineering with
the emphasis on
Design, Thermal
and
social
responsi bi lity.
engineering
tools.
Manufacturing.
(a) an ability to apply
knowledge of
mathematics, science, and
engineering
X
(e) an ability to identify,
formulate, and solve
engineering problems
X X
Course designed by Department of Mechanical Engineering
1 Student outcome a b c D e f g h i j K
x x
2 Category GENERAL
(G)
BASIC SCIENCES
(B)
x
ENGINEERING
SCIENCES AND
TECHNICAL ART (E)
PROFESSIONAL SUBJECTS
(P)
3 Broad area Manufacturing Design Thermal Genaral
(for professional
courses only, i.e
'under P' category)
x
4 Course Coordinator Mr. R.Santhanakrishnan
MEIOO2 ENGINEERING MECHANICS L T P C
Total Contact Hours - 75 3 2 0 4
Prerequisite
Nil
Purpose
To develop the ability, in the engineering student, to understand, formulate, and solve a given problem in a logical
manner and to apply it to solve a few basic problems in engineering mechanics.
INSTRUCTIONAL OBJECTIVES
1 Static equilibrium of particles and rigid bodies
2 Analysis of trusses and friction.
3 Properties of surfaces and volumes.
4 Dynamic equilibrium of particles.
5 Dynamic equilibrium of rigid bodies.
UNIT 1- STATICS OF PARTICLES (16 hours)
Equilibrium of Particles: Fundamental concepts and principles of engineering mecha nics - Forces on particles -vector addition
Concurrent forces in a plane -Resolution of forces - Resultant of several concurrent forces - Free body diagram-Forces in space.
Equilibrium of rigid bodies: Principles of transmissibility -Moment of a force - Varignon's theorem - Equivalent system of forces
Reductionofsystem of forces into single force and couple-Equipollent system of forces -Types of supports and corresponding
reactions - Equilibrium of rigid bodies intwo dimensions.- Equilibrium of a two force body, statically determinate andindeterminate
structures.
UNIT II - ANALYSIS OF TRUSSES AND FRICTION (15 hours)
Trusses: Definition of a truss - Simple Trusses - Analysis of Trusses - Method ofjoints- Method of sections. Friction: Laws of Friction
Angle of Friction -Dryfriction- Wedges - Rolling friction - Belt Friction - Thrust and Journal bearings.
UNIT 11\ - PROPERTIES OF SURFACES AND VOLUMES (14 hours)
Centre of Gravity: - Centroids of lines, areas, and volumes -Determination of centroids by integration - Theorem of Pappus-Guldinus
- Moment of Inertia:Second moment or Moment of inertia of an area- Determination of moment of inertia of area by integration
Radius of gyration - Parallel and perpendicular axis theorems - Polar moment of inertia - Mass moment of inertia.
UNIT IV· DYNAMICS OF PARTICLES (15 hours)
Rectilinear motion -uniform velocity and uniformly accelerated motion- Rectangular components of velocity and acceleration
Curvilinear motion -Normal and tangential components- Radial and transverse components-Newton second law - D'Alembert's
principle- Principle of work and energy -Applications-
Conservative forces-Principle of impulse and momentum - Impulsive motion - Impact of elastic bodies - Direct central- Oblique
central impact.
UNIT V - DYNAMICS OF RIGID BODIES (15 hours)
Introduction to Kinematics of rigid bodies - Translation and rotation of rigid bodies- Fixed axis rotation - General plane motion
Absolute and Relative velocity in plane motion - Instantaneous center of rotation in plane motion - Principle of work and energy for a
rigid body - Principle of impulse and momentum for the plane motion of a rigid body.
TOTAL 75
TEXTBOOKS
1. Ferdinand.P. Beer. E, Russell Johnston Jr., David Mazurek, Philip J Cornwell,"Vector Mechanics far Engineers: Statics and
47 Curvilinear motion -rectangular components of velocity and acceleration -Problems T2,ch6
48 T2,ch6Curvilinear motion -Normal and tangential components - Problems
49 T2,ch6Curvilinear motion -radial and transverse components - Problems _T2,_ch6_______50 Motion of projectile -horizontal range, time of flight, maximum height, - Relative moti_on_ -
51 T2, ch6Problems on projectile motion
52 T2,ch6Newton's II law principle - Problems
53 D'Alembert's principle - Problems T2,ch6
54 D'Alembert's principle - Problems T2,ch6
55 Principle of work and energy (kinetic and potential energy), conservative forces T2,ch6
56 T2,ch6Problems on work energy principle
57 T2,ch6Principle of impulse and momentum - Impulsive motion related problems
58 T2,ch6Problems on impulse and momentum
59 T2,ch6Impact of elastic bodies Problems on direct impact of elastic bodies
60 T2,ch6Problems on oblique impact of elastic bodies
DYNAMICS OF RIGID BODIES
61 Introduction to Kinematics of rigid bodies :Translation and rotation of rigid bodies- T2, ch 7
62 Problems on Translation and rotation of rigid bodies T2, ch 7
63 Fixed axis rotation - determination of angular velocity, displacement and acceleration. T2, ch 7
64 Problems on fixed axis rotation T2, ch 7
65 General plane motion - combination of translational and rotational forces T2, ch 7
66 Problems on general plane motion T2, ch 7
67 Problems on general plane motion T2, ch 7
68 Relative velocity in plane motion - combination of translational and rotational forces T2, ch 7
69 Problems on relative velocity in plane motion T2, ch 7
70 Instantaneous center of rotation in plane motion T2, ch 7
71 Problems on Instantaneous center of rotation T2, ch 7
72 Principle of work and energy for a rigid body - problems T2, ch 7
73 Problems on Principle of work and energy for a rigid body T2, ch 7
74 Principle of impulse and momentum - problems T2, ch 7
75 Problems on Principle of impulse and momentum T2, ch 7
TEXTBOOKS
1. Ferdinand.P. Beer. E, Russell Johnston Jr., David Mazurek, Philip J Cornwell,"Vector Mechanics for Engineers: Statics and